Hover flies (Diptera: Syrphidae) are an important group of insects that provide a multitude of key ecosystem services including pollination and biological control, yet many of their major life history traits are not understood. Some Palearctic hover fly species are known to migrate in response to changing seasonal conditions, yet this behavior is almost entirely unrecognized in Nearctic species. At least one species, Eupeodes americanus, is partially migratory during autumn while Allograpta obliqua may be non‐migratory, but it is unknown where these insects originate and how far they may travel. We examined natal origins of two Nearctic hover fly species, A. obliqua and E. americanus, using stable hydrogen isotope (δ2H) measurements of metabolically inactive tissues (wings and legs) to derive a hover fly δ2H isoscape. While A. obliqua was mostly of local origin, several E. americanus were sourced from northern latitudes in the Midwestern United States and Canada, representing travel distance of up to 3000 km likely using seasonally favorable air currents. This phenomenon is expected to have major ecological and economic ramifications, especially in the realm of plant pollination ecology and biological control.
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